#include "DetourMath.h"
#ifdef __cplusplus
extern "C" {
#endif
float nav_dtMathAtan2f(float y,float x){
	float c_arg_y=y;
	float c_arg_x=x;
	float c_out = dtMathAtan2f(c_arg_y,c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathCeilf(float x){
	float c_arg_x=x;
	float c_out = dtMathCeilf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathCosf(float x){
	float c_arg_x=x;
	float c_out = dtMathCosf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathFabsf(float x){
	float c_arg_x=x;
	float c_out = dtMathFabsf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathFloorf(float x){
	float c_arg_x=x;
	float c_out = dtMathFloorf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

bool nav_dtMathIsfinite(float x){
	float c_arg_x=x;
	bool c_out = dtMathIsfinite(c_arg_x);
	bool wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathSinf(float x){
	float c_arg_x=x;
	float c_out = dtMathSinf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

float nav_dtMathSqrtf(float x){
	float c_arg_x=x;
	float c_out = dtMathSqrtf(c_arg_x);
	float wrap_out  = (c_out);
	return wrap_out;
}

#ifdef __cplusplus
}
#endif
